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...	...	@@ -57,6 +57,8 @@
57	57	* IP66 Waterproof Enclosure
58	58	* 4000mAh or 8500mAh Battery for long term use
59	59
	60	+
	61	+
60	60	== 1.3  Specification ==
61	61
62	62	=== 1.3.1  Rated environmental conditions ===
...	...	@@ -71,15 +71,20 @@
71	71
72	72	=== 1.3.2  Effective measurement range Reference beam pattern ===
73	73
74		-**(1) The tested object is a white cylindrical tube made of PVC, with a height of 100cm and a diameter of 7.5cm.**[[image:image-20220610155021-2.png||height="440" width="1189"]]
	76	+**(1) The tested object is a white cylindrical tube made of PVC, with a height of 100cm and a diameter of 7.5cm.**
75	75
76	76
77	77
78		-**(2)** The object to be tested is a "corrugated cardboard box" perpendicular to the central axis of 0 °, and the length * width is 60cm * 50cm.[[image:image-20220610155021-3.png||height="437" width="1192"]]
	80	+[[image:1654852253176-749.png]]
79	79
80		-(% style="display:none" %) (%%)
81	81
	83	+**(2)** **The object to be tested is a "corrugated cardboard box" perpendicular to the central axis of 0 °, and the length * width is 60cm * 50cm.**
82	82
	85	+
	86	+[[image:1654852175653-550.png]](% style="display:none" %) ** **
	87	+
	88	+
	89	+
83	83	== 1.5 ​ Applications ==
84	84
85	85	* Horizontal distance measurement
...	...	@@ -92,6 +92,8 @@
92	92	* Sewer
93	93	* Bottom water level monitoring
94	94
	102	+
	103	+
95	95	== 1.6  Pin mapping and power on ==
96	96
97	97
...	...	@@ -98,6 +98,7 @@
98	98	[[image:1654847583902-256.png]]
99	99
100	100
	110	+
101	101	= 2.  Configure LDDS75 to connect to LoRaWAN network =
102	102
103	103	== 2.1  How it works ==
...	...	@@ -111,6 +111,7 @@
111	111	)))
112	112
113	113
	124	+
114	114	== 2.2  ​Quick guide to connect to LoRaWAN server (OTAA) ==
115	115
116	116	(((
...	...	@@ -243,6 +243,7 @@
243	243	0x01: Interrupt Uplink Packet.
244	244
245	245
	257	+
246	246	=== 2.3.4  DS18B20 Temperature sensor ===
247	247
248	248	This is optional, user can connect external DS18B20 sensor to the +3.3v, 1-wire and GND pin . and this field will report temperature.
...	...	@@ -270,21 +270,17 @@
270	270	While using TTN network, you can add the payload format to decode the payload.
271	271
272	272
273		-[[image:1654592762713-715.png]]
	285	+[[image:1654850829385-439.png]]
274	274
275		-(((
276		-The payload decoder function for TTN is here:
277		-)))
	287	+The payload decoder function for TTN V3 is here:
278	278
279		-(((
280		-LLDS12 TTN Payload Decoder: [[https:~~/~~/www.dragino.com/downloads/index.php?dir=LoRa_End_Node/LLDS12/Decoder/>>url:https://www.dragino.com/downloads/index.php?dir=LoRa_End_Node/LLDS12/Decoder/]]
281		-)))
	289	+LDDS75 TTN V3 Payload Decoder: [[http:~~/~~/www.dragino.com/downloads/index.php?dir=LoRa_End_Node/LDDS75/Payload_Decoder/>>url:http://www.dragino.com/downloads/index.php?dir=LoRa_End_Node/LSE01/Payload_Decoder/]]
282	282
283	283
284	284
285	285	== 2.4  Uplink Interval ==
286	286
287		-The LLDS12 by default uplink the sensor data every 20 minutes. User can change this interval by AT Command or LoRaWAN Downlink Command. See this link: [[Change Uplink Interval>>doc:Main.End Device AT Commands and Downlink Command.WebHome||anchor="H4.1ChangeUplinkInterval"]]
	295	+The LDDS75 by default uplink the sensor data every 20 minutes. User can change this interval by AT Command or LoRaWAN Downlink Command. See this link: [[Change Uplink Interval>>doc:Main.End Device AT Commands and Downlink Command.WebHome||anchor="H4.1ChangeUplinkInterval"]]
288	288
289	289
290	290
...	...	@@ -315,47 +315,25 @@
315	315
316	316	(% style="color:blue" %)**Step 3**(%%)**: Create an account or log in Datacake.**
317	317
318		-(% style="color:blue" %)**Step 4**(%%)**: Create LLDS12 product.**
	326	+(% style="color:blue" %)**Step 4**(%%)**: Search the LDDS75 and add DevEUI.**
319	319
320		-[[image:1654832691989-514.png]]
	328	+[[image:1654851029373-510.png]]
321	321
322	322
323		-[[image:1654592833877-762.png]]
	331	+After added, the sensor data arrive TTN V3, it will also arrive and show in Datacake.
324	324
	333	+[[image:image-20220610165129-11.png||height="595" width="1088"]]
325	325
326		-[[image:1654832740634-933.png]]
327	327
328	328
329		-
330		-(((
331		-(% style="color:blue" %)**Step 5**(%%)**: add payload decode**
332		-)))
333		-
334		-(((
335		-
336		-)))
337		-
338		-[[image:1654833065139-942.png]]
339		-
340		-
341		-
342		-[[image:1654833092678-390.png]]
343		-
344		-
345		-
346		-After added, the sensor data arrive TTN, it will also arrive and show in Datacake.
347		-
348		-[[image:1654833163048-332.png]]
349		-
350		-
351		-
352	352	== 2.6  Frequency Plans ==
353	353
354	354	(((
355		-The LLDS12 uses OTAA mode and below frequency plans by default. If user want to use it with different frequency plan, please refer the AT command sets.
	340	+The LDDS75 uses OTAA mode and below frequency plans by default. If user want to use it with different frequency plan, please refer the AT command sets.
356	356	)))
357	357
358	358
	344	+
359	359	=== 2.6.1  EU863-870 (EU868) ===
360	360
361	361	(((
...	...	@@ -419,20 +419,51 @@
419	419	=== 2.6.2  US902-928(US915) ===
420	420
421	421	(((
422		-Used in USA, Canada and South America. Frequency band as per definition in LoRaWAN 1.0.3 Regional document.
423		-)))
	408	+Used in USA, Canada and South America. Default use CHE=2
424	424
425		-(((
426		-To make sure the end node supports all sub band by default. In the OTAA Join process, the end node will use frequency 1 from sub-band1, then frequency 1 from sub-band2, then frequency 1 from sub-band3, etc to process the OTAA join.
427		-)))
	410	+(% style="color:blue" %)**Uplink:**
428	428
429		-(((
430		-After Join success, the end node will switch to the correct sub band by:
431		-)))
	412	+903.9 - SF7BW125 to SF10BW125
432	432
433		-* Check what sub-band the LoRaWAN server ask from the OTAA Join Accept message and switch to that sub-band
434		-* Use the Join successful sub-band if the server doesn’t include sub-band info in the OTAA Join Accept message ( TTN v2 doesn't include)
	414	+904.1 - SF7BW125 to SF10BW125
435	435
	416	+904.3 - SF7BW125 to SF10BW125
	417	+
	418	+904.5 - SF7BW125 to SF10BW125
	419	+
	420	+904.7 - SF7BW125 to SF10BW125
	421	+
	422	+904.9 - SF7BW125 to SF10BW125
	423	+
	424	+905.1 - SF7BW125 to SF10BW125
	425	+
	426	+905.3 - SF7BW125 to SF10BW125
	427	+
	428	+
	429	+(% style="color:blue" %)**Downlink:**
	430	+
	431	+923.3 - SF7BW500 to SF12BW500
	432	+
	433	+923.9 - SF7BW500 to SF12BW500
	434	+
	435	+924.5 - SF7BW500 to SF12BW500
	436	+
	437	+925.1 - SF7BW500 to SF12BW500
	438	+
	439	+925.7 - SF7BW500 to SF12BW500
	440	+
	441	+926.3 - SF7BW500 to SF12BW500
	442	+
	443	+926.9 - SF7BW500 to SF12BW500
	444	+
	445	+927.5 - SF7BW500 to SF12BW500
	446	+
	447	+923.3 - SF12BW500(RX2 downlink only)
	448	+
	449	+
	450	+
	451	+)))
	452	+
436	436	=== 2.6.3  CN470-510 (CN470) ===
437	437
438	438	(((
...	...	@@ -521,28 +521,54 @@
521	521
522	522
523	523
524		-
525	525	=== 2.6.4  AU915-928(AU915) ===
526	526
527	527	(((
528		-Frequency band as per definition in LoRaWAN 1.0.3 Regional document.
529		-)))
	544	+Default use CHE=2
530	530
531		-(((
532		-To make sure the end node supports all sub band by default. In the OTAA Join process, the end node will use frequency 1 from sub-band1, then frequency 1 from sub-band2, then frequency 1 from sub-band3, etc to process the OTAA join.
533		-)))
	546	+(% style="color:blue" %)**Uplink:**
534	534
535		-(((
536		-
537		-)))
	548	+916.8 - SF7BW125 to SF12BW125
538	538
539		-(((
540		-After Join success, the end node will switch to the correct sub band by:
541		-)))
	550	+917.0 - SF7BW125 to SF12BW125
542	542
543		-* Check what sub-band the LoRaWAN server ask from the OTAA Join Accept message and switch to that sub-band
544		-* Use the Join successful sub-band if the server doesn’t include sub-band info in the OTAA Join Accept message ( TTN v2 doesn't include)
	552	+917.2 - SF7BW125 to SF12BW125
545	545
	554	+917.4 - SF7BW125 to SF12BW125
	555	+
	556	+917.6 - SF7BW125 to SF12BW125
	557	+
	558	+917.8 - SF7BW125 to SF12BW125
	559	+
	560	+918.0 - SF7BW125 to SF12BW125
	561	+
	562	+918.2 - SF7BW125 to SF12BW125
	563	+
	564	+
	565	+(% style="color:blue" %)**Downlink:**
	566	+
	567	+923.3 - SF7BW500 to SF12BW500
	568	+
	569	+923.9 - SF7BW500 to SF12BW500
	570	+
	571	+924.5 - SF7BW500 to SF12BW500
	572	+
	573	+925.1 - SF7BW500 to SF12BW500
	574	+
	575	+925.7 - SF7BW500 to SF12BW500
	576	+
	577	+926.3 - SF7BW500 to SF12BW500
	578	+
	579	+926.9 - SF7BW500 to SF12BW500
	580	+
	581	+927.5 - SF7BW500 to SF12BW500
	582	+
	583	+923.3 - SF12BW500(RX2 downlink only)
	584	+
	585	+
	586	+
	587	+)))
	588	+
546	546	=== 2.6.5  AS920-923 & AS923-925 (AS923) ===
547	547
548	548	(((
...	...	@@ -651,7 +651,6 @@
651	651
652	652
653	653
654		-
655	655	=== 2.6.6  KR920-923 (KR920) ===
656	656
657	657	(((
...	...	@@ -724,7 +724,6 @@
724	724
725	725
726	726
727		-
728	728	=== 2.6.7  IN865-867 (IN865) ===
729	729
730	730	(((
...	...	@@ -761,18 +761,22 @@
761	761
762	762
763	763
764		-
765	765	== 2.7  LED Indicator ==
766	766
767		-The LLDS12 has an internal LED which is to show the status of different state.
	807	+The LDDS75 has an internal LED which is to show the status of different state.
768	768
769		-* The sensor is detected when the device is turned on, and it will flash 4 times quickly when it is detected.
	809	+
	810	+* Blink once when device power on.
	811	+* The device detects the sensor and flashes 5 times.
	812	+* Solid ON for 5 seconds once device successful Join the network.
770	770	* Blink once when device transmit a packet.
771	771
	815	+
	816	+
772	772	== 2.8  ​Firmware Change Log ==
773	773
774	774
775		-**Firmware download link: **[[http:~~/~~/www.dragino.com/downloads/index.php?dir=LoRa_End_Node/LLDS12/Firmware/>>url:http://www.dragino.com/downloads/index.php?dir=LoRa_End_Node/LLDS12/Firmware/]]
	820	+**Firmware download link: **[[http:~~/~~/www.dragino.com/downloads/index.php?dir=LoRa_End_Node/LSE01/Firmware/>>url:http://www.dragino.com/downloads/index.php?dir=LoRa_End_Node/LSE01/Firmware/]]
776	776
777	777
778	778	**Firmware Upgrade Method: **[[Firmware Upgrade Instruction>>doc:Main.Firmware Upgrade Instruction for STM32 base products.WebHome]]
...	...	@@ -779,68 +779,55 @@
779	779
780	780
781	781
782		-= 3.  LiDAR ToF Measurement =
	827	+== 2.9  Mechanical ==
783	783
784		-== 3.1 Principle of Distance Measurement ==
785	785
786		-The LiDAR probe is based on TOF, namely, Time of Flight principle. To be specific, the product emits modulation wave of near infrared ray on a periodic basis, which will be reflected after contacting object. The product obtains the time of flight by measuring round-trip phase difference and then calculates relative range between the product and the detection object, as shown below.
	830	+[[image:image-20220610172003-1.png]]
787	787
788		-[[image:1654831757579-263.png]]
	832	+[[image:image-20220610172003-2.png]]
789	789
790	790
	835	+== 2.10  Battery Analysis  ==
791	791
792		-== 3.2 Distance Measurement Characteristics ==
	837	+=== 2.10.1  Battery Type ===
793	793
794		-With optimization of light path and algorithm, The LiDAR probe has minimized influence from external environment on distance measurement performance. Despite that, the range of distance measurement may still be affected by the environment illumination intensity and the reflectivity of detection object. As shown in below:
	839	+The LDDS75 battery is a combination of a 4000mAh or 8500mAh Li/SOCI2 Battery and a Super Capacitor. The battery is non-rechargeable battery type with a low discharge rate (<2% per year). This type of battery is commonly used in IoT devices such as water meter.
795	795
796		-[[image:1654831774373-275.png]]
797	797
	842	+The battery related documents as below:
798	798
799		-(((
800		-(% style="color:blue" %)**① **(%%)Represents the detection blind zone of The LiDAR probe, 0-10cm, within which the output data is unreliable.
	844	+* (((
	845	+[[ Battery Dimension>>url:http://www.dragino.com/downloads/index.php?dir=datasheet/Battery/&file=LSN50-Battery-Dimension.pdf]],
801	801	)))
802		-
803		-(((
804		-(% style="color:blue" %)**② **(%%)Represents the operating range of The LiDAR probe detecting black target with 10% reflectivity, 0.1-5m.
	847	+* (((
	848	+[[Lithium-Thionyl Chloride Battery  datasheet>>url:https://www.dragino.com/downloads/downloads/datasheet/Battery/ER26500/ER26500_Datasheet-EN.pdf]],
805	805	)))
806		-
807		-(((
808		-(% style="color:blue" %)**③ **(%%)Represents the operating range of The LiDAR probe detecting white target with 90% reflectivity, 0.1-12m.
	850	+* (((
	851	+[[Lithium-ion Battery-Capacitor datasheet>>url:http://www.dragino.com/downloads/downloads/datasheet/Battery/SPC_1520_datasheet.jpg]], [[Tech Spec>>url:http://www.dragino.com/downloads/downloads/datasheet/Battery/SPC1520%20Technical%20Specification20171123.pdf]]
809	809	)))
810	810
	854	+ [[image:image-20220610172400-3.png]]
811	811
812		-(((
813		-Vertical Coordinates: Represents the radius of light spot for The LiDAR probe at the different distances. The diameter of light spot depends on the FOV of The LiDAR probe (the term of FOV generally refers to the smaller value between the receiving angle and the transmitting angle), which is calculated as follows:
814		-)))
815	815
816	816
817		-[[image:1654831797521-720.png]]
	858	+=== 2.10.2  Replace the battery ===
818	818
	860	+(((
	861	+You can change the battery in the LDDS75.The type of battery is not limited as long as the output is between 3v to 3.6v. On the main board, there is a diode (D1) between the battery and the main circuit. If you need to use a battery with less than 3.3v, please remove the D1 and shortcut the two pads of it so there won’t be voltage drop between battery and main board.
	862	+)))
819	819
820	820	(((
821		-In the formula above, d is the diameter of light spot; D is detecting range; β is the value of the receiving angle of The LiDAR probe, 3.6°. Correspondence between the diameter of light spot and detecting range is given in Table below.
	865	+
822	822	)))
823	823
824		-[[image:1654831810009-716.png]]
825		-
826		-
827	827	(((
828		-If the light spot reaches two objects with different distances, as shown in Figure 3, the output distance value will be a value between the actual distance values of the two objects. For a high accuracy requirement in practice, the above situation should be noticed to avoid the measurement error.
	869	+The default battery pack of LDDS75 includes a ER18505 plus super capacitor. If user can’t find this pack locally, they can find ER18505 or equivalence, which will also work in most case. The SPC can enlarge the battery life for high frequency use (update period below 5 minutes)
829	829	)))
830	830
831	831
832	832
833		-== 3.3 Notice of usage: ==
	874	+= 3.  Configure LLDS12 via AT Command or LoRaWAN Downlink =
834	834
835		-Possible invalid /wrong reading for LiDAR ToF tech:
836		-
837		-* Measure high reflectivity object such as: Mirror, Smooth ceramic tile, static milk surface, will have possible wrong readings.
838		-* While there is transparent object such as glass, water drop between the measured object and the LiDAR sensor, the reading might wrong.
839		-* The LiDAR probe is cover by dirty things; the reading might be wrong. In this case, need to clean the probe.
840		-* The sensor window is made by Acrylic. Don’t touch it with alcohol material. This will destroy the sensor window.
841		-
842		-= 4.  Configure LLDS12 via AT Command or LoRaWAN Downlink =
843		-
844	844	(((
845	845	(((
846	846	Use can configure LLDS12 via AT Command or LoRaWAN Downlink.

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